CN109698336A - The sulphur of accordion-rice carbon/titanium carbide composite material and preparation method and application - Google Patents
The sulphur of accordion-rice carbon/titanium carbide composite material and preparation method and application Download PDFInfo
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Abstract
The invention discloses a kind of sulphur of accordion-rice carbon/titanium carbide composite material and preparation method and as the application of lithium sulfur battery anode material.The rice carbon material with three-dimensional porous structure is obtained by instantaneous extruding method, as carrier, conductive polar material titanium carbide is introduced into rice carbon by high temperature solid state reaction, diffusion method sulfurizing is then melted and obtains carbon sulphur composite material as excellent lithium sulfur battery anode material.Sulphur of the present invention-rice carbon/carbonization titanium composite material has both the microscopic appearance of three-dimensional porous structure and accordion, possess outstanding captured sulfur result and higher electron conductivity, there is the synergistic effect of " physical absorption " and " chemical bonding " two kinds of mechanism to " the shuttle effect " of polysulfide, thus effective chemical property of lithium-sulfur cell.
Description
Technical field
This method is related to a kind of novel lithium sulfur battery anode material, and in particular to a kind of sulphur of accordion-rice carbon/carbonization
The three-dimensional porous composite material and preparation method of titanium and the application as lithium sulfur battery anode material.
Background technique
Energy storage technology is extensive, clean and efficient the only way which must be passed using the energy.Lithium-sulfur cell is due to its higher theory
Specific capacity (1675mA h g-1) and theoretical energy density (2600W h kg-1) and sulphur abundance in the earth's crust it is high, it is at low cost,
The huge advantages such as non-toxic, harmless and pollution-free, it is considered to be the secondary cell of the great development prospect of a new generation becomes better than tradition
One of the candidate of the high-energy density electro-chemical systems of lithium ion battery.But it is more in the insulating properties of sulphur simple substance, cyclic process
The electric discharge of the shuttle effect of sulfide, the volume expansion of electrode material and lithium metal dendritic growth etc. technical problem bring is held
It measures that low, coulombic efficiency is low, fast capacity decaying and safety issue, is brought to the practical application of lithium-sulfur cell huge tired
It disturbs.Therefore, in lithium-sulfur cell, usually by sulphur and other electrically conductive carrier materials it is compound, using the electric conductivity of carrier, carrier as
The chemisorption of physisorption or polar support material surface that Physical barriers generate inhibits polysulfide
" shuttle effect " achievees the purpose that solid sulphur, improves specific capacity and improves cyclical stability.
Porous carbon materials can effectively improve the load factor of sulphur by its huge surface area and pore structure abundant, adapt to
The volume expansion of active material in charge and discharge process;Carbon material itself has the features such as very strong electric conductivity and stable structure simultaneously,
Be conducive to lithium ion preferably to transmit;In addition, carbon is from a wealth of sources, many biomass carbon materials have natural hierarchical structure,
Good carbonization method can convert porous carbon materials for these biomaterials.These advantages all become porous carbon materials
The ideal carrier material of sulphur.However, carbon is a kind of non-polar material, this prevents carbon-based material from capturing polar more vulcanizations
Object.In addition, the poor effective transfer for also counteracting interface charge of affinity between carbon and polysulfide, and slow down reaction
Dynamics.
With nonpolar carbon phase ratio, polar host material has very strong activity, a large amount of surface-active site, these features
Make this kind of material that there is chemisorption property, the substances such as the polysulfide easily to shuttle and lithium sulfide can be adsorbed, thus significantly
Alleviate " shuttle effect ".Due to ti-based compound have it is inexpensive, environmental-friendly and to the ideal chemical adsorptivity of polysulfide
The features such as, it obtains researcher and largely studies.And titanium carbide is as one of the most common material in ti-based compound, and
A kind of conduction polar material is promoting polysulfide liquid phase in the electrolytic solution and liquid polysulfide to be transformed into sulphur
During changing lithium solid precipitation, activity more stronger than nonpolar carbon is shown.
Rice carbon/carbonization titanium composite material is to be obtained using rice as carbon source by " instantaneous extruding " method that simplicity is easy to get
To three-dimensional porous structure, and on this basis, conductive polar material titanium carbide is introduced by high temperature solid state reaction, to polysulfide
" shuttle effect " there is the synergistic effect of " physical absorption " and " chemical bonding " two kinds of mechanism, while possess outstanding solid sulphur and
Higher electron conductivity, to effectively improve the chemical property of lithium-sulfur cell.
Summary of the invention
It is an object of the invention to provide a kind of sulphur-rice carbon/titanium carbide composite wood for the problems in background technique
Material and preparation method thereof is obtained three-dimensional porous carbon structure by simple instantaneous extruding method, is obtained using high temperature solid phase synthesis
Rice carbon/carbonization titanium composite material of three-dimensional porous structure with accordion obtains sulphur-finally by melting diffusion method sulfurizing
Rice carbon/carbonization titanium composite material.The composite material has " the shuttle effect " of polysulfide as lithium sulfur battery anode material
There is the synergistic effect of " physical absorption " and " chemical bonding " two kinds of mechanism, while possessing outstanding solid sulphur and the conduction of higher electronics
Rate, to effectively improve the chemical property of lithium-sulfur cell.
A kind of sulphur of accordion-rice carbon/carbonization titanium composite material is as excellent lithium sulfur battery anode material, including three
Rice carbon, the conductive polar material titanium carbide introduced by high temperature solid state reaction and the melting diffusion method for tieing up porous structure enter
Sulphur in rice carbon, that is, include multiple sheets rice carbon plate being cross-linked, the titanium carbide that is grown on the rice carbon plate with
And melting is diffused into the sulphur of the rice carbon plate and titanium carbide, and the microscopic appearance of accordion is presented.
Multiple rice carbon plates are cross-linked to form three-dimensional porous structure, and the sulphur is covered on described with carbonization
On the rice carbon plate of titanium and blocking it is deposited in the hole between each rice carbon plate.
The rice carbon plate with a thickness of 0.3~1.2 μm (further preferably 0.5~1 μm), the titanium carbide is
Armorphous nano particle, diameter are 10~100nm (further preferably 20~50nm).
It is not only equably covered on the rice lamella with titanium carbide by the sulphur that melting diffusion method is penetrated into, also blockingly
It is deposited in the hole that secondary carbon plate is interconnected and form.
The sulphur of accordion of the present invention-rice carbon/carbonization titanium composite material preparation method, comprising the following steps:
(1) it is immersed in the water 5~15h after cleaning rice, after rice is then collected dry, expanding treatment, is obtained
To using rice as the porous carbon materials of carbon source;
(2) puffed rice that step (1) obtains is immersed in the mixed solution of titanate esters and ethyl alcohol, it is anti-carries out hydro-thermal
It answers, hydrothermal product, which pours into silica crucible to be placed in tube furnace, after heat treatment obtains rice carbon/carbonization titanium composite material;
(3) rice carbon/carbonization titanium composite material that step (2) obtains is uniformly mixed with distillation sulphur powder, is expanded by melting
Arching pushing keeps the temperature 8~16h at 145~165 DEG C, obtains sulphur-rice carbon/carbonization titanium composite material of accordion.
It is used as the preferred technical solution of the present invention below:
In step (1), the temperature of the drying is 60~100 DEG C.
The expanding treatment condition are as follows: in instantaneous bulking equipment, 0.5~1.5MPa is protected under conditions of 200~300 DEG C
Press 5~10min.
The porous carbon materials using rice as carbon source are obtained, are three-dimensional porous structure, secondary carbon plate thickness therein is about 0.5
μm, surface is smooth, and lower roughness is presented, and secondary carbon plate has been interconnected and form generally about 50 μm of aperture.
The ratio between rice, water in step (1) and the titanate esters in step (2), the dosage of ethyl alcohol be 0.9~1.4g (preferably
For 1.14g): 50~100mL:1.0~4.0mL:50~100mL
In step (2), the titanate esters are tetraethyl titanate, tetraisopropyl titanate, any one in butyl titanate
Kind.
The temperature of the hydro-thermal reaction is 200~300 DEG C, and the hydro-thermal reaction time is 5~10h.
The condition of the heat treatment is that 1200~1400 DEG C are heated under argon atmosphere, 2~4h of soaking time.Through
Rice carbon/carbonization titanium composite material is obtained after heat treatment, is the three-dimensional porous composite construction of accordion.
In step (3), matter of the distillation sulphur powder in rice carbon/carbonization titanium composite material and sublimed sulfur powder mixture kind
Measuring percentage composition is 50~80%, after reacted, obtains sulphur-rice carbon/carbonization titanium composite material.
10~14h (most preferably 12h) is kept the temperature under 150~160 DEG C (most preferably 155 DEG C) by melting diffusion method.
In the present invention, three-dimensional porous carbon structure is obtained by simple instantaneous extruding method, is later immersed in puffed rice
Hydro-thermal reaction is carried out in the mixed solution of titanate esters and ethyl alcohol.High temperature solid phase synthesis is recycled to be heated under argon atmosphere
1200~1400 DEG C, 2~4h of heat preservation obtains the rice carbon/carbonization titanium composite material with accordion three-dimensional porous structure.Finally
By melting diffusion method carbon sulphur mixing material is kept the temperature into 12h at 155 DEG C and obtains sulphur-rice carbon/carbonization titanium composite material.Wherein
Rice carbon plate thickness is about 0.5~1 μm, and the unformed carbonization titanium nano particle diameter is about 20~50nm.The present invention one
Sulphur-rice carbon/carbonization titanium composite material of kind accordion has " physical absorption " to " the shuttle effect " of polysulfide and " changes
The synergistic effect of two kinds of mechanism of combination ", while possessing outstanding solid sulphur and higher electron conductivity, to effectively improve
The chemical property of lithium-sulfur cell.
Compared with prior art, the present invention has the advantage that
In the present invention, the three-dimensional porous structure that puffed rice is shown causes strong physical constraint, and sulphur is by equably
It is limited in three-dimensional pore space, it is caused effectively to contact with electronics access interconnected.Titanium carbide is as a kind of conductive polarity material
Material, there is a large amount of surface-active site, can promote the transformation of polysulfide in the electrolytic solution, and have very strong chemisorption
Effect, additional affinity is provided for soluble intermediate.Unformed carbonization titanium nano particle is grown on rice lamella, is in
The microscopic appearance of existing accordion, significantly increases specific surface area, has achieved the purpose that solid sulphur, and produce as Physical barriers
Raw physisorption can be used to inhibit " the shuttle effect " of polysulfide." physical absorption " and " chemical bonding " two kinds of machines
The synergistic effect of system ensure that sulphur-rice carbon/carbonization titanium composite material electrochemistry excellent as lithium sulfur battery anode material
Energy.
Detailed description of the invention
Fig. 1 is the XRD diagram of rice carbon material and rice carbon/carbonization titanium composite material obtained in embodiment 1;
Fig. 2 is the scanning electron microscope (SEM) photograph of the three-dimensional porous structure of rice carbon material obtained in embodiment 1;
Fig. 3 is the transmission electron microscope picture of the three-dimensional porous structure of rice carbon material obtained in embodiment 1;
Fig. 4 is that the three-dimensional porous composite construction of accordion of rice carbon/carbonization titanium composite material obtained is swept in embodiment 1
Retouch electron microscope;
Fig. 5 is the scanning electron microscope (SEM) photograph and distribution diagram of element of rice carbon/carbonization titanium composite material obtained in embodiment 1,
A is scanning electron microscope (SEM) photograph in middle Fig. 5, and b is C element distribution map in Fig. 5, and c is Ti distribution diagram of element in Fig. 5;
Fig. 6 is the transmission electron microscope picture of rice carbon/carbonization titanium composite material obtained in embodiment 1.
Specific embodiment
Below with reference to embodiment, the present invention will be described in detail, but the present invention is not limited to this.
Embodiment 1
1.14g rice is chosen, 10h in 100mL aqueous solution is immersed after cleaning at 25 DEG C of room temperature, then collects rice
Get up dry in 70 DEG C of baking oven.Processed rice is sealed in instantaneous bulking equipment, 1.0MPa under conditions of 250 DEG C
Pressure maintaining 5min.Gasket is taken out to obtain the rice after expanding treatment, is immersed in the isopropyl titanate and 60mL of 2.0mL
In alcohol mixed solution, 200 DEG C of heat preservation 6h.Obtained faint yellow intermediate product is poured into and is placed in tube furnace in silica crucible
It is interior, 1300 DEG C are heated under argon atmosphere, soaking time 3h.By the rice carbon and titanium carbide of distillation sulphur powder and above-mentioned synthesis
Composite material is compound using melting diffusion method, wherein distillation sulphur powder is in the composite material of distillation sulphur powder and rice carbon and titanium carbide
Mass percentage be 70%, mixture is kept the temperature into 12h at 155 DEG C after mixed grinding is uniform, it is compound to finally obtain carbon sulphur
Material (i.e. the sulphur of accordion-rice carbon/carbonization titanium composite material).
The XRD diagram of rice carbon material and rice carbon/carbonization titanium composite material obtained is as shown in Figure 1 in embodiment 1;Implement
The scanning electron microscope (SEM) photograph of the three-dimensional porous structure of rice carbon material obtained is as shown in Figure 2 in example 1;Rice obtained in embodiment 1
The transmission electron microscope picture of the three-dimensional porous structure of carbon material is as shown in Figure 3;Rice carbon/titanium carbide composite wood obtained in embodiment 1
The scanning electron microscope (SEM) photograph of the three-dimensional porous composite construction of the accordion of material is as shown in Figure 4;Rice carbon/titanium carbide obtained in embodiment 1
The scanning electron microscope (SEM) photograph and distribution diagram of element of composite material are as shown in figure 5, wherein a is scanning electron microscope (SEM) photograph in Fig. 5, and b is C member in Fig. 5
Plain distribution map, c is Ti distribution diagram of element in Fig. 5;The transmission electron microscope of rice carbon/carbonization titanium composite material obtained in embodiment 1
Figure is as shown in Figure 6.
As shown, the sulphur of accordion-rice carbon/carbonization titanium composite material is as excellent lithium sulfur battery anode material,
The rice carbon plate that is cross-linked including multiple sheets, the titanium carbide being grown on the rice carbon plate and melting diffusion are penetrated into big
The sulphur of rice carbon plate and titanium carbide, is presented the microscopic appearance of accordion.
Multiple rice carbon plates are cross-linked to form three-dimensional porous structure, sulphur be covered on the rice carbon plate with titanium carbide with
And it blocking is deposited in the hole between each rice carbon plate.Rice carbon plate with a thickness of 0.5~1 μm, titanium carbide is without fixed
Type nano particle, diameter are 20~50nm.The three-dimensional porous structure that puffed rice is shown causes strong physical constraint, sulphur
It is equably limited in three-dimensional pore space, it is caused effectively to contact with electronics access interconnected.Titanium carbide is led as one kind
Electric polarity material has a large amount of surface-active site, can promote the transformation of polysulfide in the electrolytic solution, and have very strong
Chemisorption provides additional affinity for soluble intermediate.Unformed carbonization titanium nano particle is in rice lamella
Upper growth is presented the microscopic appearance of accordion, significantly increases specific surface area, has achieved the purpose that solid sulphur, and as object
The physisorption that reason barrier layer generates can be used to inhibit " the shuttle effect " of polysulfide." physical absorption " and " chemistry
In conjunction with " synergistic effects of two kinds of mechanism ensure that sulphur-rice carbon/carbonization titanium composite material is excellent as lithium sulfur battery anode material
Chemical property.
Embodiment 2
1.14g rice is chosen, 10h in 100mL aqueous solution is immersed after cleaning at 25 DEG C of room temperature, then collects rice
Get up dry in 70 DEG C of baking oven.Processed rice is sealed in instantaneous bulking equipment, 1.0MPa under conditions of 250 DEG C
Pressure maintaining 5min.Gasket is taken out to obtain the rice after expanding treatment, is immersed in the isopropyl titanate and 60mL of 2.0mL
In alcohol mixed solution, 200 DEG C of heat preservation 6h.Obtained faint yellow intermediate product is poured into and is placed in tube furnace in silica crucible
It is interior, 1300 DEG C are heated under argon atmosphere, soaking time 3h.By the rice carbon and titanium carbide of distillation sulphur powder and above-mentioned synthesis
Composite material is compound using melting diffusion method, wherein distillation sulphur powder is in the composite material of distillation sulphur powder and rice carbon and titanium carbide
Mass percentage be 60%, mixture is kept the temperature into 12h at 155 DEG C after mixed grinding is uniform, it is compound to finally obtain carbon sulphur
Material.
Embodiment 3
1.14g rice is chosen, 10h in 100mL aqueous solution is immersed after cleaning at 25 DEG C of room temperature, then collects rice
Get up dry in 70 DEG C of baking oven.Processed rice is sealed in instantaneous bulking equipment, 2.0MPa under conditions of 250 DEG C
Pressure maintaining 5min.Gasket is taken out to obtain the rice after expanding treatment, is immersed in the isopropyl titanate and 60mL of 2.0mL
In alcohol mixed solution, 200 DEG C of heat preservation 6h.Obtained faint yellow intermediate product is poured into and is placed in tube furnace in silica crucible
It is interior, 1300 DEG C are heated under argon atmosphere, soaking time 3h.By the rice carbon and titanium carbide of distillation sulphur powder and above-mentioned synthesis
Composite material is compound using melting diffusion method, wherein distillation sulphur powder is in the composite material of distillation sulphur powder and rice carbon and titanium carbide
Mass percentage be 80%, mixture is kept the temperature into 12h at 155 DEG C after mixed grinding is uniform, it is compound to finally obtain carbon sulphur
Material.
Embodiment 4
1.14g rice is chosen, 10h in 100mL aqueous solution is immersed after cleaning at 25 DEG C of room temperature, then collects rice
Get up dry in 70 DEG C of baking oven.Processed rice is sealed in instantaneous bulking equipment, 1.0MPa under conditions of 250 DEG C
Pressure maintaining 5min.Gasket is taken out to obtain the rice after expanding treatment, is immersed in the tetraethyl titanate and 60mL of 3.0mL
In alcohol mixed solution, 200 DEG C of heat preservation 6h.Obtained faint yellow intermediate product is poured into and is placed in tube furnace in silica crucible
It is interior, 1300 DEG C are heated under argon atmosphere, soaking time 3h.By the rice carbon and titanium carbide of distillation sulphur powder and above-mentioned synthesis
Composite material is compound using melting diffusion method, wherein distillation sulphur powder is in the composite material of distillation sulphur powder and rice carbon and titanium carbide
Mass percentage be 70%, mixture is kept the temperature into 12h at 155 DEG C after mixed grinding is uniform, it is compound to finally obtain carbon sulphur
Material.
Embodiment 5
1.14g rice is chosen, 10h in 100mL aqueous solution is immersed after cleaning at 25 DEG C of room temperature, then collects rice
Get up dry in 70 DEG C of baking oven.Processed rice is sealed in instantaneous bulking equipment, 1.0MPa under conditions of 250 DEG C
Pressure maintaining 5min.Gasket is taken out to obtain the rice after expanding treatment, is immersed in the butyl titanate and 60mL of 1.0mL
In alcohol mixed solution, 200 DEG C of heat preservation 6h.Obtained faint yellow intermediate product is poured into and is placed in tube furnace in silica crucible
It is interior, 1300 DEG C are heated under argon atmosphere, soaking time 3h.By the rice carbon and titanium carbide of distillation sulphur powder and above-mentioned synthesis
Composite material is compound using melting diffusion method, wherein distillation sulphur powder is in the composite material of distillation sulphur powder and rice carbon and titanium carbide
Mass percentage be 70%, mixture is kept the temperature into 12h at 155 DEG C after mixed grinding is uniform, it is compound to finally obtain carbon sulphur
Material.
Performance test
By sulphur made of above-described embodiment 1~5-rice carbon/carbonization titanium composite material and conductive black (Super P), poly-
Vinylidene (PVDF) is mixed with electrode slurry according to the ratio of 8:1:1 in N-Methyl pyrrolidone (NMP).Slurry is applied
Cloth on aluminium flake after be dried in vacuo at 60 DEG C and obtain positive electrode for 24 hours.Metal lithium sheet is as negative electrode material, microporous polypropylene membrane
(Cellgard 2300) is used as diaphragm.Double trifluoromethanesulfonimide lithiums (LiTFSI) are dissolved according to volume ratio 1:1 configuration
Glycol dimethyl ether (DME) and 1,3- dioxolanes (DOL) mixed solution and the lithium nitrate for adding 1wt% thereto
(LiNO3) it is used as electrolyte, the amount of electrolyte follows every milligram of sulphur and 20 μ L is added dropwise.The assembling of CR2025 type button cell be with
Argon gas is protection gas, is carried out in the water oxygen partial pressure respectively less than closing glove box of 0.1ppm.By this battery system stand 48h after
Cyclic voltammetry test (CV), electrochemical impedance spectroscopy test (EIS) and charge-discharge test are carried out in room temperature environment (25 ± 1 DEG C).
It is 0.1mV s in sweep speed after example 1 group is dressed up lithium-sulfur cell-1Under conditions of the CV curve that presents it is non-
Often stablize, shows higher peak intensity, relatively narrow peak separation and less polarization always, show its faster reaction power
And the more effectively utilization to active material sulphur.In addition, in order to further prove titanium carbide to lithium-sulfur cell in aspect of performance
Positive influence, by the battery being assembled into carry out charge-discharge test.The result shows that the material has more stable charge/discharge platform
With smaller activation polarization;It is respectively 1119.8mA h g in the initial discharge capacity of 0.1C, 0.2C, 0.5C-1、1027mA h
g-1With 909.2mA h g-1;When being set in 2C, sulphur-rice carbon/titanium carbide composite electrode can still be obtained
705.7mA h g-1Capacity, show that the material is capable of providing better high magnification capacity, further illustrate the ion of the material
Diffusion is more excellent, also preferable to the restriction effect of polysulfide.
This mainly has benefited from the intrinsic three-dimensional porous structure of rice, polarity conductivity material titanium carbide and its on rice lamella
The fast transferring of electrons/ions is jointly promoted in the microscopic appearance of accordion and is prevented " the shuttle effect " of polysulfide,
To make reaction preferably carry out.
Therefore, sulphur of the present invention-rice carbon/carbonization titanium composite material has " physics suction to " the shuttle effect " of polysulfide
It is attached " and " chemical bonding " two kinds of mechanism synergistic effect, while possessing outstanding solid sulphur and higher electron conductivity, to have
Improve to effect the chemical property of lithium-sulfur cell.
Claims (10)
1. a kind of sulphur of accordion-rice carbon/carbonization titanium composite material, which is characterized in that be cross-linked including multiple sheets
Rice carbon plate, the titanium carbide being grown on the rice carbon plate and melting are diffused into the sulphur of the rice carbon plate and titanium carbide,
The microscopic appearance of accordion is presented;
Multiple rice carbon plates are cross-linked to form three-dimensional porous structure, and the sulphur is covered on described with titanium carbide
On rice carbon plate and blocking it is deposited in the hole between each rice carbon plate.
2. the sulphur of accordion according to claim 1-rice carbon/carbonization titanium composite material, which is characterized in that described is big
Rice carbon plate with a thickness of 0.3~1.2 μm, the titanium carbide is armorphous nano particle, and diameter is 10~100nm.
3. the sulphur of accordion according to claim 1-rice carbon/carbonization titanium composite material preparation method, feature exist
In, comprising the following steps:
(1) be immersed in the water 5~15h after cleaning rice, after rice is then collected dry, expanding treatment, obtain with
Rice is the porous carbon materials of carbon source;
(2) puffed rice that step (1) obtains is immersed in the mixed solution of titanate esters and ethyl alcohol, carries out hydro-thermal reaction, water
Hot, which is poured into silica crucible to be placed in tube furnace, after heat treatment obtains rice carbon/carbonization titanium composite material;
(3) rice carbon/carbonization titanium composite material that step (2) obtains is uniformly mixed with distillation sulphur powder, by melting diffusion method
8~16h is kept the temperature at 145~165 DEG C, obtains sulphur-rice carbon/carbonization titanium composite material of accordion.
4. preparation method according to claim 3, which is characterized in that in step (1), the temperature of the drying is 60~
100℃;
The condition of the expanding treatment are as follows: in instantaneous bulking equipment, 0.5~1.5MPa pressure maintaining under conditions of 200~300 DEG C
5~10min.
5. preparation method according to claim 3, which is characterized in that in the rice, water and step (2) in step (1)
The ratio between titanate esters, dosage of ethyl alcohol are 0.9~1.4g:50~100mL:1.0~4.0mL:50~100mL.
6. preparation method according to claim 3, which is characterized in that in step (2), the titanate esters are metatitanic acid tetrem
Ester, tetraisopropyl titanate, any one in butyl titanate.
7. preparation method according to claim 3, which is characterized in that in step (2), the temperature of the hydro-thermal reaction is
200~300 DEG C, the hydro-thermal reaction time is 5~10h;
The condition of the heat treatment is that 1200~1400 DEG C are heated under argon atmosphere, 2~4h of soaking time.
8. preparation method according to claim 3, which is characterized in that in step (3), the distillation sulphur powder is in rice
Carbon/carbonization titanium composite material and the mass percentage of sublimed sulfur powder mixture kind are 50~80%.
9. preparation method according to claim 3, which is characterized in that in step (3), by melting diffusion method 150~
10~14h is kept the temperature at 160 DEG C.
10. the sulphur of accordion according to claim 1-rice carbon/carbonization titanium composite material is as lithium-sulphur cell positive electrode material
The application of material.
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN110108399A (en) * | 2019-05-24 | 2019-08-09 | 吉林大学 | A kind of pliable pressure sensor and preparation method thereof based on biomaterial sunflower flower pollen and carbonization titanium composite material |
CN110311112A (en) * | 2019-07-02 | 2019-10-08 | 东南大学 | A kind of HPCSs@d-Ti for lithium-sulphur cell positive electrode3C2Composite material and its application |
Citations (6)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN101323444A (en) * | 2007-06-15 | 2008-12-17 | 中国科学院化学研究所 | Carbon or carbon composite hollow ball and preparation thereof |
CN104733695A (en) * | 2015-03-27 | 2015-06-24 | 浙江大学 | Carbon/sulfur composite material for lithium-sulfur battery cathode as well as preparation method and application |
CN106024402A (en) * | 2016-05-05 | 2016-10-12 | 浙江大学 | Supercapacitor carbon/titanium carbide core casing composite ball electrode material and preparation method thereof |
CN106532012A (en) * | 2016-12-23 | 2017-03-22 | 浙江大学 | Sulfur-biomass carbon/transition metal composite electrode material and preparation method and application thereof |
CN107887588A (en) * | 2017-11-08 | 2018-04-06 | 黑龙江科技大学 | A kind of preparation method and application of nano-sulfur particles/two-dimensional layer carbonization titanium composite material |
WO2018127124A1 (en) * | 2017-01-06 | 2018-07-12 | The Hong Kong University Of Science And Technology | Synthesis of porous carbon microspheres and their application in lithium-sulfur batteries |
-
2018
- 2018-12-20 CN CN201811564534.1A patent/CN109698336B/en active Active
Patent Citations (6)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN101323444A (en) * | 2007-06-15 | 2008-12-17 | 中国科学院化学研究所 | Carbon or carbon composite hollow ball and preparation thereof |
CN104733695A (en) * | 2015-03-27 | 2015-06-24 | 浙江大学 | Carbon/sulfur composite material for lithium-sulfur battery cathode as well as preparation method and application |
CN106024402A (en) * | 2016-05-05 | 2016-10-12 | 浙江大学 | Supercapacitor carbon/titanium carbide core casing composite ball electrode material and preparation method thereof |
CN106532012A (en) * | 2016-12-23 | 2017-03-22 | 浙江大学 | Sulfur-biomass carbon/transition metal composite electrode material and preparation method and application thereof |
WO2018127124A1 (en) * | 2017-01-06 | 2018-07-12 | The Hong Kong University Of Science And Technology | Synthesis of porous carbon microspheres and their application in lithium-sulfur batteries |
CN107887588A (en) * | 2017-11-08 | 2018-04-06 | 黑龙江科技大学 | A kind of preparation method and application of nano-sulfur particles/two-dimensional layer carbonization titanium composite material |
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN110108399A (en) * | 2019-05-24 | 2019-08-09 | 吉林大学 | A kind of pliable pressure sensor and preparation method thereof based on biomaterial sunflower flower pollen and carbonization titanium composite material |
CN110108399B (en) * | 2019-05-24 | 2021-02-12 | 吉林大学 | Flexible pressure sensor based on composite material of biological material sunflower pollen and titanium carbide and preparation method thereof |
CN110311112A (en) * | 2019-07-02 | 2019-10-08 | 东南大学 | A kind of HPCSs@d-Ti for lithium-sulphur cell positive electrode3C2Composite material and its application |
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